UMLS:C0023467 - FACTA Search

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty-three acute myelocytic leukemia (AML) patients with t(8;21) chromosomal abnormality, all classified as M2 (French-American-British [FAB] classification), were investigated. Blastic cells from all patients were positive for the stem cell-associated antigens, CD34 and HLA-DR, and the immature myeloid antigens, CD13 and CD33. The nonblastic leukemic cells expressed the more mature myeloid antigens, CD11b and CD15, with loss of the immature phenotype. The incidence of positivities for the stem cell-associated antigens, CD34 and HLA-DR, in t(8;21) AML cells was significantly higher in comparison with those in other AML showing granulocytic differentiation (M2 or M3). AML cells with t(8;21) also showed some phenotypic abnormalities. Frequent expression of CD19 was found in the blastic population of t(8;21) AML (18 of 23 cases) without other B-cell antigens and Ig gene rearrangements. CD19 expression was confirmed by immunocytochemistry and Northern blotting. The CD19+ blastic cells coexpressed both CD34 and HLA-DR. In addition, CD33+ cells among the blastic fraction in t(8;21) AML cells were fewer in number than in those of M2 or M3 AML without t(8;21). Our findings indicate that leukemic blasts of t(8;21) AML commonly express CD19 while preserving the stem cell-associated antigens, and differentiate into the granulocytic pathway with discordant maturation such as low CD33 expression.
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PMID:Phenotypical characteristics of acute myelocytic leukemia associated with the t(8;21)(q22;q22) chromosomal abnormality: frequent expression of immature B-cell antigen CD19 together with stem cell antigen CD34. 137 22

Expression of selected adhesion molecules of the integrin and immunoglobulin family was investigated on CD34+ leukemic cells in 19 AML and 11 ALL cases to evaluate phenotypic differences in adhesive properties of malignant hematopoietic precursor cells in comparison to normal bone marrow CD34+ cells. Of the beta 2-integrin family, CD11a was expressed on > 50% of CD34+ cells in normal bone marrow and almost all leukemias, whereas CD11b and CD11c were not expressed on CD34+ cells in normal bone marrow, but were found on CD34+ blasts in some leukemias of a heterogeneous immunophenotype. Of the beta 1-family, CDw49d (VLA-4) was strongly expressed on normal CD34+ bone marrow cells and on the blasts of all 30 CD34+ leukemic samples, whereas CDw49b (VLA-2) was absent on CD34+ cells in normal bone marrow, but detected on CD34+ cells in a few leukemias which did not constitute a clinical or phenotypic entity according to the FAB classification or immunocytological analysis. The lymphocyte-homing-associated adhesion molecule CD44 (HCAM) and CD58 (LFA-3) were expressed on CD34+ cells in all investigated cases of normal and leukemic bone marrow. ICAM-1 (CD54), the inducible receptor ligand for CD11a/CD18, although present on CD34+ cells in normal bone marrow, was lacking on blast cells of some ALL and AML cases. So far, the variable expression of beta 2-integrins as well as of VLA-2 and of ICAM-1 could indicate distinct differences in cell-cell or cell-matrix adhesion of leukemic cells in ALL and AML patients.
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PMID:Adhesion molecules on CD34+ hematopoietic cells in normal human bone marrow and leukemia. 138 21

The treatment of acute myeloid leukemia (AML) in children with Down's syndrome (DS) has engendered considerable controversy. Because of the concerns for toxicity and increased rate of infections, treatment approaches varied considerably in the past with mixed results. However, experience on the recently completed Pediatric Oncology Group (POG) 8498 AML study suggests that DS children with AML constitute a distinct subgroup that responds well to therapy. Twelve of 285 children on POG 8498 (protocol for newly diagnosed AML) had DS. Children with DS and AML were predominantly male (9 of 12) and were quite younger at diagnosis (< 24 months in 10). The white blood cell count was less than 50 x 10(3)/microL in all 12 and French-American-British types M6 and M7 were frequent (5 of 12). An abnormal cytogenetic marker, in addition to constitutional trisomy 21, was present in 9 of 12 and involved chromosome 8 in 4 of 9. All cases studied (n = 5) were positive for myeloid cell surface markers (CD33, CD13, or CD11b) and, interestingly, were also positive for the CD7 antigen. Chemotherapy included daunorubicin, cytarabine (Ara-C), and 6-thioguanine for remission induction and featured high-dose Ara-C (3 g/m2 per dose) with or without L-asparaginase early in remission. Compared with children without DS, children with DS had a superior event-free survival (EFS at 4 years 100% v 28% +/- 6.2%; P = .003). The EFS remained superior even when compared with non-DS children less than 2 years of age with a white blood cell count less than 10 x 100,000/microL (100% v 48% +/- 17.3%; P = .01).
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PMID:Acute myeloid leukemia (AML) in Down's syndrome is highly responsive to chemotherapy: experience on Pediatric Oncology Group AML Study 8498. 849 50

We have shown that interleukin-2 (IL-2) -activated adherent lymphocytes (A-LAK) display superior oncolytic activity against acute myelogenous leukemia (AML) blasts when compared to conventionally prepared lymphocytes with lymphokine-activated killing (LAK) activity. The A-LAK activity was generated promptly and from donors whose lymphocytes did not display any LAK activity. In comparison to LAK, a higher percentage of A-LAK expressed the CD25 and HLA class II (HLA-DR) activation-associated structures and high density of HLA class I antigens. Most striking, however, was the observation that lymphocytes from A-LAK cultures consistently contained a high density of CD2, CD11a, and CD18 adhesion molecules, as indicated cytometrically by their "bright" fluorescence intensity. Three color flow cytometric analysis indicated that virtually all CD56+,CD3- natural killer (NK) and CD56+,CD3+ T cells in unstimulated, LAK and A-LAK populations displayed this "bright" phenotype, while most CD56-,CD3+ T cells (with the exception of the small proportion found in A-LAK) were of the "dim" phenotype. The A-LAK cultures also contained a higher percentage of lymphocytes expressing CD11b (CR3 receptor) and CD54 (ICAM-1) antigens. The CD11a, CD18, and partially CD2 molecules were important in the A-LAK cytolytic mechanism against AML, since blocking of these structures with monoclonal antibodies (MAb) significantly decreased the antileukemia effect. Additionally, the ability of A-LAK to adhere to plastic was most strongly inhibited by anti-CD11a MAb and less, but significantly, by MAb against CD2, CD18, and CD56 molecules.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adhesion molecules on MHC-nonrestricted lymphocytes: high density expression and role in oncolysis. 139 Dec 34

Thirty cases of newly diagnosed pediatric acute myeloblastic leukemia (AML) with French-American-British (FAB) M2 morphology were analyzed with cytogenetics and a comprehensive panel of monoclonal antibodies reactive with lymphoid-, natural killer (NK)-cell-, and myeloid-associated antigens. The t(8;21)(q22;q22), or t(8;21;V)(q22;q22;V), translocation was identified in 16 of the 30 cases. Cases with the t(8;21) did not differ significantly from the remaining M2 cases with respect to expression of CD11b, CD13, CD14, CD15, CD33, CD34, CD36, CD41a, CD42b, CDw65, TdT, or HLA-DR. Expression of the B-cell antigen CD19 was detected in 13 of the 16 t(8;21) cases (81%), but in only 1 of the 14 (7%) other M2 cases (P = .00006). Expression of the CD56 NK-cell antigen was also significantly more frequent among t(8;21) cases (63% v 14%; P = .01). Coexpression of CD19 and CD56 was found only in the t(8;21) group (9 of 16 cases, P = .0009). Furthermore, this phenotype was not found in 48 evaluable cases of de novo AML of the FAB M1, M3, M4, M5, or M7 subtypes. The 14 M2 AML cases lacking the t(8;21) commonly expressed CD2 (n = 5) or CD7 (n = 8). However, no case with the t(8;21) expressed either antigen (P = .01 and .0005, respectively). Thus, the t(8;21) biologic subgroup of pediatric M2 AML has distinct immunophenotypic characteristics that distinguish it from other types of de novo AML.
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PMID:Distinctive immunophenotypic features of t(8;21)(q22;q22) acute myeloblastic leukemia in children. 846 84

The clinical utility of the indirect immunofluorescence (IF) and the alkaline phosphatase-anti-alkaline phosphatase (APAAP) techniques was compared in 103 newly diagnosed acute leukaemia patients immunophenotyped using a panel of 19 monoclonal antibodies (MoAb). In spite of slight variations in the percentages of cells reacting with particular MoAbs when comparing the two methods we found no discrepancies in the final classification of each case. In ANLL (n = 73) the best correlation between the two methods was found for CDw65 which is a good screening marker, and for CD15 having a prognostic significance. In ALL (n = 30) the best correlation was observed for CD19 and CD10, both of great diagnostic importance. The following antigens present both in membrane and in cytoplasm displayed higher positivity with the APAAP than in IF HLA-Dr, CD71 and CD11b in ANLL, CD22 and HLA-Dr in nonT-ALL and CD3 in T-ALL. The important advantages of the APAAP technique are: 1) its use with routinely performed bone marrow or peripheral blood films, which can be stored before staining, 2) the possibility of correlating morphology with immunological characterization and documentation of the results.
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PMID:[Comparison of clinical usefulness of immunophenotyping of leukemia using the immunofluorescence and immunoenzyme APAAP methods]. 148 65

Clinically useful monoclonal antibodies, applied for immunophenotyping of leukemias, are reviewed. With a combination of 15 antibodies, including CD2, CD3, CD4, CD5, CD7, and CD8 for T cell marker analysis, CD10, CD19, CD20, surface immunoglobulins, and cytoplasmic mu chain for B cell marker analysis, CD13 and CD33 for myeloid marker analysis, and HLA-DR and CD25 for other marker analysis, acute lymphoblastic leukemias of T cell type, cALL type, pre-B cell type and B cell type, acute myeloid leukemias, acute unclassified leukemias and adult T cell leukemias could be clearly diagnosed by immunophenotyping of cell membrane molecules. By using additional CD11b, CD14, and CD15 monoclonal antibodies, subclassification of acute myeloid leukemia was partially possible.
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PMID:[Usefulness of monoclonal antibodies for immunophenotyping in leukemia]. 151 36

The frequency and distribution of aberrant antigen expression are analyzed on bone marrow aspirates from 80 patients with newly diagnosed acute myeloid leukemia (AML) by multidimensional flow cytometry. Parameters examined are the light scatter profile of the leukemic cells and the correlative expression of different combinations of the CD2, 4, 5, 7, 11b, 11c, 13, 14, 15, 16, 33, 34, 38, and HLA-DR antigens. Antigen expression on leukemic cells in bone marrow is described by characteristic antigen expression patterns describing: (i) the percentage of cells expressing the antigen; (ii) the antigen density; and (iii) the distribution of the antigen on the leukemic cells. Typically the non-myeloid antigens are homogeneously expressed by the leukemic cells, whereas the myeloid associated antigen CD11b, CD11c, CD14, and CD15 are heterogeneously expressed. Comparison of the antigenic profiles of 80 bone marrow aspirates revealed an extreme interclonal heterogeneity. Comparison of the antigen expression patterns found in AML patients with the antigen expression in normal bone marrow revealed four patterns of aberrant antigen expression in AML: (i) expression of nonmyeloid antigens (i.e. CD2, CD5, and CD7 were present in 57, 60, and 37% of the patients, respectively); (ii) asynchronous expression of myeloid associated antigens (i.e. co-expression of CD34 and CD15 in 25% of the patients and expression of CD16 on immature myeloid cells in 15% of the cases); (iii) over-expression of myeloid associated antigens (e.g. CD34 in 16% of the cases and CD14 on neutrophilic cells in 19% of all patients); and (iv) absence of expression of myeloid associated antigens (e.g. lack of CD33 in 21% of the cases and lack of both CD11b and CD15 in 6% of all patients. Multidimensional flow cytometric analysis of bone marrow aspirates of AML patients disclosed that the leukemic cells of each AML patient had a unique antigenic profile and could be discriminated from their normal counterparts based on aberrant antigen expression and typical light scatter profiles. The ability to distinguish leukemic cells from normal cells allows the detection of residual leukemic cells during and after chemotherapy.
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PMID:Flow cytometric characterization of acute myeloid leukemia. Part II. Phenotypic heterogeneity at diagnosis. 154 Feb 62

During a 6-year period we received bone marrow (BM) and peripheral blood (PB) samples from 178 patients with acute myeloid leukemia (AML). All patient BM, and occasionally, PB samples were characterized according to FAB criteria, and by immunophenotyping (IP) and cytogenetics (CG). This report summarizes the findings in the 125 patients who were older than 15 years. Their mean and median ages were 39.4 and 37.0 years. There were 8 (6.4%) M1, 27 (21.6%) M2, 15 (12.0%) M3, 49 (39.2%) M4, 14 (11.2%) M5A, 9 (7.2%) M5B and 2 (1.6%) M6. IP showed that HLA-DR was most strongly and frequently expressed by M1 blasts (53.5%, 86%) and least strongly and frequently expressed by M3 blasts (4.5%, 0%). HLA-DR was also relatively strongly expressed by M4, M5A, M5B (21.5%, 43%; 34.9%, 69%; and 19.2%, 56%, respectively). CD11b was uniformly weakly expressed by all FAB subgroups. CD13 was most strongly and frequently expressed by M4 (20%, 43%), and was relatively weakly and infrequently expressed by the other FAB subtypes (9.5%, 9.2%, 16.4%, 8.4%, 16.3%). CD14 was moderately expressed by M4 (15.2%, 25%) and M5B (14.0%, 22%) and M1 (7.0%, 40%). CD33 was most strongly expressed by M3 blasts (26.3% and 61%), and was most weakly expressed by M5B (10.6% and 22%). Fourteen (11.2%) patients had blasts that showed lymphoid antigens (5 T, 5 B, 5 CALLA) in addition to myeloid characteristics. Fifty-four (51.9%) of 104 patients tested had one or more karyotypic abnormalities, the most frequent of which was 8+. Only the t(15:17) was specific, and was seen in M3. Four patients with anomalous IP had trisomy 21, one of whom also had 11q-. We conclude that Saudi Arabian AML shows FAB patterns similar to patients in the West, and that M3 patients have a characteristic IP and cytogenetic pattern. Apart from this the MIC classification failed to reveal characteristic modes.
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PMID:Morphologic immunophenotypic and cytogenetic patterns of adult acute myeloid leukemia in Saudi Arabia. 154 71

We describe a form of acute myeloid leukaemia (AML), designated AML-MO, with minimal myeloid differentiation, not included previously in the FAB classification. AML-MO cannot be diagnosed on morphological grounds alone as the blast cells are large and agranular, sometimes resembling L2 or, rarely, L1 lymphoblasts, and should be identified by the following features: negative myeloperoxidase (MPO) and Sudan Black B reaction (or positive in less than 3% of blasts), negative B and T lineage markers and expression of myeloid antigens recognized by at least one monoclonal antibody, CD13 or CD33. Other myeloid markers are also often positive and these include CD11b and the enzyme MPO demonstrated by immunocytochemistry and/or electron microscopy analysis. The findings in a group of 10 cases satisfying the criteria for AML-MO are described. AML-MO represents 2-3% of all cases of AML and 1-1.5% of all acute leukaemias. Its clinical and biological significance is not yet apparent but its identification in a larger number of cases may achieve this aim.
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PMID:Proposal for the recognition of minimally differentiated acute myeloid leukaemia (AML-MO) 139 Feb 28

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